DE2233253A1 - OVERVOLTAGE ARRESTERS FOR LOW VOLTAGE NETWORKS WITH DISCONNECTING DEVICE - Google Patents

Description

Surge arrester for low voltage networks with disconnection device The invention is concerned with a surge arrester for low-voltage networks with a disconnection device7 arranged in an insulating housing, the after overload a quenching spark gap and heating of a voltage-dependent resistor Separates the fusible link and the completed separation by an indicator indicates.

Such surge arresters are already known. In the German Auslegeschrift 1 005 608 can trigger the disconnection fuse by a transparent housing part can be recognized from the outside. Another solution shows that German 'patent specification 1 1 46 182. Here a signal cylinder is provided, the is pulled down when responding to the isolating fuse and so that ineffective of the arrester visually. Another version of a surge arrester used for low-voltage networks according to German patent specification 1 153 114 as a separator a screw made of thermoplastic material that melts when heated and together with the voltage-dependent.

Resistance falls down. As a result of the glass housing of the surge arrester the response of the isolating fuse can be recognized from the outside. It is also one Design of a surge arrester became known, which in the event of impermissible heating of the voltage-dependent resistance opens a solder joint due to overload and in the process, an earth line connected below is thrown off by spring force. The resulting The separation point is recognizable as a result of the cable being dropped.

Surge arresters with a transparent housing and in which the response of the isolating fuse is caused by a change in the Location of parts within the glass housing is recognizable have the disadvantage that the response of the isolating fuse can only be seen indistinctly. So can light reflections respectively.

Soiling of the transparent housing recognition of the switching status to make impossible. Surge conductor, which in case of overload, the earth line throw off, have the disadvantage that when replacing the surge arrester both the line section as well as the surge arrester must be dismantled. It cases have also become known in which grazing Cattle thrown off Has recorded parts. Another disadvantage of the known designs is that Internal self-induction too high, caused by the coil springs used. After all, there is increased ground lines due to the hanging or swinging underground lines Risk of short circuit.

The invention therefore has the task of providing a surge arrester to be trained in such a way that its indicator does not respond by parts of one transparent housing and allows a permanently installed earth line.

The invention solves this problem with a signal flap as an indicator, by a spring attached to the insulating housing at one end and the other at the other End carries the signal flap and is designed so that it is biased in a State the signal flap in an at least partially covered by the insulating housing Holds position and in a relaxed state the signal flap out of the insulating housing works.

The surge arrester according to the invention has a signal flap equipped after the melting point on the underside of the surge arrester has melted springs outwards. At the same time, there is contact between the earth line and a low-voltage line solved. Since the flap protrudes from the surge arrester at an angle, a disconnected surge arrester can be easily identified.

The signal flap could have its own joint on the insulating housing be attached. However, the joint is omitted if the spring is designed in the form of a band is. A decisive advantage of a ribbon-shaped spring is still its small size Self-inductance and, associated therewith, only a short response delay of the surge arrester: Opposite the known arrangements a very short response time is achieved with spiral springs. As the leakage connection is not thrown off, a Fixed or rigid earth line can be used by appropriate constructive Design of the surge arrester according to the invention, in particular by fastening the voltage-dependent resistance and the quenching spark gap in the insulating housing with a cardanic suspension a good contact and thus a high Discharge capacity reached.

The invention is described with reference to the accompanying figures. The figures show: FIG. 1 a bottom view of the surge arrester according to the invention; 2 shows a sectional view through the surge arrester viewed from the side along the line II - II from FIG. 1; Fig. 3 is a partial sectional view through the surge arrester rotated by 900 and viewed from the side; Fig. 4 a molded part used for cardanic suspension; Fig. 5 is a partially broken away Side view of the surge arrester with the signal flap folded down.

1 and 2 show the structure of a surge arrester according to the invention. In an insulating housing 1 made of plastic (e.g. a thermoset) there is a connection screw 2 pressed in. On one contact side 5 of the connection screw 2 lies an extinguishing spark gap 4 with two identical electrode parts 4 and 5, 5, 6 on. The two electrode parts 4 and 5 are through a mica disk 6, the having a central bore, separated from each other. The centering of the spark gap 4, 5, 6 takes place on the one hand by the 1soliergehäuse-1, on the other hand by a around the electrode part 5 arranged insulating ring 7. On the electrode part 5 of the quenching spark gap 4, 5, 6 is a disk-shaped, voltage-dependent Resistance 9 with one side up. On another side of the voltage-dependent Resistor 9, a plate-shaped disc 10 is provided for contacting. One Cardan suspension 11 attaches the extinguishing spark gap 4, 5, 6 and the voltage-dependent Resist stood 9 on the insulating housing 1. This enables an even contact pressure and an absolutely flat support of the electrode parts 4 and 5 of the spark gap 4, 5, 6 and the voltage-dependent resistor 9.

Fig. 3 shows the attachment of the cardanic suspension i with two Screws 12, 13. The cardanic suspension 11 has a central bore 16 and is bulged according to FIG. 4 so that it -on the one hand with a spherical surface 14- on an inside of the disc 10, on the other hand with extensions 15 on the screws 12, 13 lay-on. A spring 18 is at one end with a screw 19 on the plastic housing 1 attached. The spring 18 is shaped so that the by the attachment of a other end of angled tab 24 with a fusible link 20 on the disc 10 is biased. At the other end of the spring 18 a signal flap 17 is attached. Another tab 21 of the spring 18 protrudes through a slot 22 in the signal flap 17 and fastened it by a cabinet fastening. The signal flap 17 is made of a thermoplastic and is preferably conspicuous edged.

It is attached to the spring 18 so that it is separated from the insulating housing 1 is almost completely covered from side view and therefore not triggered State is largely hidden from view. If the voltage-dependent resistor heats up 9 impermissible if the surge arrester responds for a long time, so liquefied the fusible link 20 with which the spring 18 is attached to the disk 10 The spring 18 snaps down, taking the signal flap 17 with it, and thus points a response of the disconnection device of the surge arrester.

A connecting part 23, as is attached to the insulating housing 1 with the screw 19 is, dlent for contacting an earth connection. Through appropriate training of the connecting part 23 can, as is not shown in more detail, for different Types of connection of the connection, e.g.

Crimp connection or clamping can be used.

It has been found that the electrode parts 4 and 5 of the arc gap 4, 5, 6 are best made of solid material. This can be used for production A more precise distance between the electrode parts 4 and 5 can be achieved.

Claims (16)

Claims 1. Surge arrester for low voltage networks with one in one Isolation housing arranged disconnection device, which after overloading a quenching spark gap and heating a voltage-dependent resistor separates a fusible link and the completed separation is indicated by an identification message, g e e n n n z e i c h n e t through a signal flap (17) as an indicator, through one with one end the spring (18) attached to the insulating housing (1) and the signal flap at the other end (17) and is designed so that it is in a pretensioned state, the signal flap (17) holds in a position which is at least partially covered by the insulating casing f1) and in a relaxed state, the signal flap (17) from the insulating housing (1) works. 2. Surge arrester according to claim 1, characterized in that that the spring (18) is designed in the form of a band. 3. Surge arrester according to claim 1 or 2, characterized by a tab angled in the direction of the voltage-dependent resistor (9) (24) at the other end of the spring (18), which is the fusible link (20) for fastening which carries neither (18) in the pretensioned state. 4. Surge arrester according to one of the preceding claims, characterized through another flap (21) angled towards the signal flap (1) at the other end of the spring (15) which attaches the signal flap (17). 5. Surge arrester according to claim 4, characterized by a Cabinet fastening of the signal flap (17) on the other flap (21). 6. Surge arrester according to one of the preceding claims, characterized characterized in that the signal flap (17) made of a thermoplastic material istc 7. Surge arrester according to one of the preceding claims, characterized in that that the signal flap (17) has a striking color. 8. Surge arrester according to one of the preceding claims., characterized in that the signal flap (17) is completely against the side view is covered. 9. Surge arrester, in particular according to claim 1, characterized in that that a cardanic suspension (11) the voltage-dependent resistor (9) and the spark gap (4, 5, 6) attached in the insulating housing (1). 10. Surge arrester according to claim 9, characterized in that that the cardanic suspension (11) has two opposing attachment extensions (15) and a spherical bearing surface arranged between the fastening extensions (15) (14). 11. Surge arrester according to claim 10, characterized in that that the cardanic suspension (11) with de convex support surface (14) on one on the voltage-dependent resistor (9) adjacent disc (10) and that two screws (12, 13) hold the fastening brackets (15). 12. Surge arrester according to claim 11, characterized in that that the spherical bearing surface (14) in the area of the disc (10) has an opening (16) to take up the fusible link (20). 13. Surge arrester according to one of claims 9 to 12, characterized characterized in that the insulating housing (1) has a first electrode part (4) of the quenching spark gap (4, 5, 6) directly and a second electrode part (5) has a circumferential insulating ring (7) centered. 14. Surge arrester according to claim 13, characterized in that that a mica washer, enring, (6), the outside diameter of which is equal to an outside diameter of the insulating ring (7), between the first and the second electrode part (4, 5) is arranged. 15. Surge arrester according to claim 1-3 or 14, characterized. that the first and the second electrode part (4, 5) made of solid material are. 16. Surge arrester according to one of claims 13 to 15, characterized characterized in that the first and the second electrode part (4, 5) made of brass copper or nickel silver. L e r s e -i t e